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    • 1. 发明授权
    • Method for preparing a hologram recording medium
    • 制备全息记录介质的方法
    • US08749862B2
    • 2014-06-10
    • US13180067
    • 2011-07-11
    • Mitsuru KitamuraHidekazu OkunoMasato Taninaka
    • Mitsuru KitamuraHidekazu OkunoMasato Taninaka
    • G03H1/08
    • G03H1/0891B42D25/328B42D2035/20G03H1/0011G03H1/08G03H1/0841G03H2001/0027G03H2001/2273G03H2001/303
    • Two original images to be recorded are prepared as data (S10). A plurality of unit regions, each having an adequate area to record interference fringes of visible light, are defined and positioned on a hologram recording surface (S20). A gradation pattern, with which appearance probabilities of two record attributes gradually change in space, is overlapped onto the recording surface, and to each unit region, one of either record attributes is assigned according to the appearance probabilities of the respective record attributes at each individual position (S30). In each unit region, to which the first record attribute is assigned, the first original image is recorded as an interference fringe pattern, a diffraction grating pattern, or a scattering structure pattern, and in each unit region, to which the second record attribute is assigned, the second original image is recorded as an interference fringe pattern, a diffraction grating pattern, or a scattering structure pattern (S40), and a record pattern is formed on a physical medium (S50).
    • 准备要记录的两个原始图像作为数据(S10)。 定义并定位在全息记录表面上的多个单位区域,每个区域具有足够的面积来记录可见光的干涉条纹(S20)。 将两个记录属性的外观概率在空间中逐渐变化的渐变图案重叠在记录表面上,并且对于每个单位区域,根据每个个体的各个记录属性的外观概率来分配记录属性之一 位置(S30)。 在分配了第一记录属性的每个单位区域中,第一原始图像被记录为干涉条纹图案,衍射光栅图案或散射结构图案,并且在每个单位区域中,第二记录属性为 将第二原始图像记录为干涉条纹图案,衍射光栅图案或散射结构图案(S40),并且在物理介质上形成记录图案(S50)。
    • 5. 发明授权
    • Method and device for manufacturing a hologram recording medium
    • 用于制造全息图记录介质的方法和装置
    • US07999981B2
    • 2011-08-16
    • US12727466
    • 2010-03-19
    • Mitsuru Kitamura
    • Mitsuru Kitamura
    • G03H1/08
    • G03H1/0808G03H2210/30
    • Arrangements are made to enable different original images to be reproduced upon observation from different positions and yet enable reproduced images of high resolution to be obtained. In a case of recording two original images, each of the two original images Ia and Ib is defined as a set of point light sources in an XYZ global coordinate system, and two propagation spaces Sa and Sb, each enabling propagation of light emitted from an origin Q of an αβγ local coordinate system, are defined. A predetermined recording plane and a reference light are set in the XYZ coordinate system, and an interference fringe pattern, which is formed on the recording plane by object light components from the point light sources constituting the respective original images and the reference light, is determined by computation. In this process, the computation is performed upon deeming that a light from a point light source belonging to the original image Ia spreads only within the propagation space Sa, with the origin Q of the αβγ coordinate system being overlappingly set at the position of the point light source, and that a light from a point light source belonging to the original image Ib spreads only within the propagation space Sb, with the origin Q of the αβγ coordinate system being overlappingly set at the position of the point light source.
    • 进行布置,以使得不同的原始图像在从不同位置观察时被再现,并且能够获得高分辨率的再现图像。 在记录两个原始图像的情况下,两个原始图像Ia和Ib中的每一个被定义为XYZ全局坐标系中的一组点光源,以及两个传播空间Sa和Sb,每个传播空间Sa和Sb能够传播从 定义了α&bgr;γ局部坐标系的原点Q。 在XYZ坐标系中设置预定的记录面和基准光,并且确定由来自构成各原始图像的点光源和基准光的物体光分量在记录面上形成的干涉条纹图案 通过计算。 在该处理中,在认为来自属于原始图像Ia的点光源的光仅在传播空间Sa内扩散的情况下进行计算,将α&bgr;γ坐标系的原点Q重叠设置在 点光源,并且来自属于原始图像Ib的点光源的光仅在传播空间Sb内扩散,其中α&bgr;γ坐标系的原点Q重叠地设置在点光源的位置 。
    • 8. 发明授权
    • Computer hologram and creation method thereof
    • 计算机全息图及其制作方法
    • US07573622B2
    • 2009-08-11
    • US10586705
    • 2005-01-25
    • Mitsuru Kitamura
    • Mitsuru Kitamura
    • G03H1/08
    • G03H1/0841G03H1/08G03H2240/13G03H2240/41
    • An original image (10), a recording surface (20), and a reference light (R) are defined and a large number of calculation points (Q(x, y)) are defined at a predetermined pitch on the recording surface (20). For each of the calculation points, intensity of interference wave, formed by an object light (O1 to ON) generated from the respective parts (P1 to PN) of the original image (10) and a reference light (R), is calculated. A binary pattern defined by dividing a unit area into a first area having a pixel value “white” and a second area having a pixel value “black” is defined in a plurality of ways by changing the occupancy ratio (0 to 100%) of the first area. A binary pattern having the occupancy ratio corresponding to the interference wave intensity calculated, is assigned to the position of the respective calculation points (Q) on the recording surface (20) so as to form a binary image and create a computer hologram medium having convex and concave portions. By setting the vertical and horizontal pitched of the calculation points (Q) to 400 nm or below, it is possible to reduce the unnecessary noise component generated during observation and obtain a clear reproduction area.
    • 定义原始图像(10),记录表面(20)和参考光(R),并且在记录表面(20(20))上以预定间距限定大量计算点(Q(x,y) )。 对于每个计算点,计算由原始图像(10)的各个部分(P1至PN)产生的对象光(O1至ON)形成的干涉波的强度和参考光(R)。 通过将多个单位区域的占有率(0〜100%)变更为多个,通过将单位区域划分为具有像素值“白色”的第一区域和具有像素值“黑色”的第二区域而定义的二进制图案 第一个区域。 具有与计算出的干涉波强度对应的占有率的二进制图案被分配给记录表面(20)上的各个计算点(Q)的位置,以便形成二进制图像并创建具有凸起的计算机全息图介质 和凹部。 通过将计算点(Q)的垂直和水平倾斜度设定为400nm以下,可以减少观察时产生的不必要的噪声成分,获得清晰的再现区域。
    • 9. 发明授权
    • Optical element
    • 光学元件
    • US07492498B2
    • 2009-02-17
    • US11799071
    • 2007-04-30
    • Mitsuru Kitamura
    • Mitsuru Kitamura
    • G02B26/00
    • G03H1/0891G03H1/0244G03H1/08G03H2001/0858G03H2210/30G03H2210/454G03H2223/12G03H2240/13G03H2240/23
    • A complex amplitude type spatial optical modulation element, with which the amount of generation of 0 th-order diffraction light is low, is provided. An optical element is arranged by aligning a plurality of three-dimensional cells C1(x, y) two-dimensionally on an XY plane. Each individual cell is made of a light transmitting material and has a specific amplitude and a specific phase defined therein. The individual cell has a specific optical characteristic such that when predetermined incident light is provided from the upper surface of the cell, reflection emitted light, with which amplitude and phase of the incident light have been changed in accordance with the specific amplitude and the specific phase defined in the cell, is obtained from the upper surface of the cell.
    • 提供了0级衍射光的产生量低的复振幅型空间光调制元件。 通过在XY平面上二维对准多个三维单元C1(x,y)来配置光学元件。 每个单个电池由透光材料制成,并且具有限定在其中的特定的振幅和特定相。 单个电池具有特定的光学特性,使得当从电池的上表面提供预定的入射光时,反射发射光,入射光的振幅和相位根据特定振幅和特定相位而改变 在细胞中限定,从细胞的上表面获得。